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Basic removable appliance design
1.
2. IntroductionIntroduction
HistoryHistory
Properties of Orthodontic wiresProperties of Orthodontic wires
ClassificationClassification
IndicationsIndications
AdvantagesAdvantages
DisadvantagesDisadvantages
Design ComponentsDesign Components
Commonly Used AppliancesCommonly Used Appliances
Soldering and WeldingSoldering and Welding
ConclusionConclusion
3. Weinstein has saidWeinstein has said
““There is only one disease that is malocclusion.There is only one disease that is malocclusion.
The medicine is force and there are number ofThe medicine is force and there are number of
ways of applying this force”ways of applying this force”
4. HISTORYHISTORY
Victor Hugo JacksonVictor Hugo Jackson
chief proponent of removable appliances in the USchief proponent of removable appliances in the US
Charles Hawley
Introduced Hawley’s appliance in 1908Introduced Hawley’s appliance in 1908
Martin SchwartzMartin Schwartz
In mid 20In mid 20thth
century developed a variety of split platecentury developed a variety of split plate
appliancesappliances
5. Philip AdamsPhilip Adams
Modified arrowhead clasp into ‘Adams Crib’Modified arrowhead clasp into ‘Adams Crib’
Became the basis for English removable appliancesBecame the basis for English removable appliances
Still the most effective clasp for orthodontic purposeStill the most effective clasp for orthodontic purpose
George CrozatGeorge Crozat
In early 1900s developed a removable applianceIn early 1900s developed a removable appliance
entirely in precious metalentirely in precious metal
Effective clasps on I molars modified from Jackson’sEffective clasps on I molars modified from Jackson’s
designdesign
Heavy gold wires as frameworkHeavy gold wires as framework
Lighter gold finger springs for desired toothLighter gold finger springs for desired tooth
movementmovement
6. At the beginning of the twentieth centuryAt the beginning of the twentieth century
• vulcanite baseplate that covered the palatevulcanite baseplate that covered the palate
• molars and premolars capped for retention.molars and premolars capped for retention.
• Although the materials changed, removableAlthough the materials changed, removable
appliances remained the principal appliance forappliances remained the principal appliance for
orthodontic treatment in UK and Europe for the nextorthodontic treatment in UK and Europe for the next
70 years70 years..
• In contrast, it had little impact on AmericanIn contrast, it had little impact on American
orthodontics, which at that time was dominated byorthodontics, which at that time was dominated by
Edward AngleEdward Angle..
7. Development of Removable AppliancesDevelopment of Removable Appliances
in Europein Europe
1.1. Angle’s dogmatic approach to occlusion, with itsAngle’s dogmatic approach to occlusion, with its
emphasis on precise positioning of each teeth hademphasis on precise positioning of each teeth had
less impact on Europeless impact on Europe
2.2. Social welfare systems developed much moreSocial welfare systems developed much more
rapidly in Europe- providing limited treatment forrapidly in Europe- providing limited treatment for
large number of patientslarge number of patients
3.3. Precious metals for fixed appliances were lessPrecious metals for fixed appliances were less
available in Europeavailable in Europe
8. In the UK, the establishment of the National HealthIn the UK, the establishment of the National Health
Service in 1948 favoured use of removableService in 1948 favoured use of removable
appliances.appliances.
• only ten specialist orthodontistsonly ten specialist orthodontists
• so the vast majority of orthodontic treatment wasso the vast majority of orthodontic treatment was
provided by general dental practitioners.provided by general dental practitioners.
• Department of Health, and the then Dental EstimatesDepartment of Health, and the then Dental Estimates
Board, were of the view that the near exclusive use ofBoard, were of the view that the near exclusive use of
removable appliances was the most cost effective wayremovable appliances was the most cost effective way
of providing UK orthodontic care.of providing UK orthodontic care.
9. 1970s:1970s: The length of postgraduate orthodontic trainingThe length of postgraduate orthodontic training
increased from one to two yearsincreased from one to two years
1980s:1980s: to three years.to three years.
Postgraduates were able to complete supervisedPostgraduates were able to complete supervised
treatment of multibanded cases before they qualified.treatment of multibanded cases before they qualified.
A series of technical advancesA series of technical advances
• Prewelded, preformed orthodontic bandsPrewelded, preformed orthodontic bands
• Directly bonded attachmentsDirectly bonded attachments
• Pre-adjusted edgewise bracket reduced the needPre-adjusted edgewise bracket reduced the need
for complex individually formed archwires.for complex individually formed archwires.
10. Measurements of treatment outcomeMeasurements of treatment outcome
The quality of outcome not as high as with fixedThe quality of outcome not as high as with fixed
appliancesappliances
Higher discontinuation of treatment associated withHigher discontinuation of treatment associated with
the use of removable appliancesthe use of removable appliances
Dental practitioners now refer their patients on toDental practitioners now refer their patients on to
specialist orthodontists.specialist orthodontists.
Specialist orthodontists favour the use of fixedSpecialist orthodontists favour the use of fixed
appliances due to the ability to precisely positionappliances due to the ability to precisely position
teethteeth
11. Scope of removable appliancesScope of removable appliances
The use of removable appliances still varies widelyThe use of removable appliances still varies widely
between clinicians, but it is possible to achievebetween clinicians, but it is possible to achieve
adequate occlusal improvement with theseadequate occlusal improvement with these
appliances, provided suitable cases are chosen.appliances, provided suitable cases are chosen.
It is vital to emphasize that cases suitable for removableIt is vital to emphasize that cases suitable for removable
appliance treatment are those that require simpleappliance treatment are those that require simple
tipping movements only, and surprisingly fewtipping movements only, and surprisingly few
malocclusions will fall into this category.malocclusions will fall into this category.
12. Properties of Orthodontic wiresProperties of Orthodontic wires
1)1) Esthetics Kusy, AO 1997Esthetics Kusy, AO 1997
2)2) StiffnessStiffness
3)3) StrengthStrength
4)4) RangeRange
5)5) SpringbackSpringback
6)6) FormabilityFormability
7)7) ResiliencyResiliency
8)8) FrictionFriction
9)9) BiohostabilityBiohostability
10)10) BiocompatibilityBiocompatibility
11)11) WeldabilityWeldability
13. 1) Esthetics:1) Esthetics:
-desirable property -no compromise on mechanical-desirable property -no compromise on mechanical
propertiesproperties
-composite wires-composite wires
2) Stiffness/Load deflection rate:2) Stiffness/Load deflection rate:
-Magnitude of force delivered by the appliance for a-Magnitude of force delivered by the appliance for a
particular amount of deflection.particular amount of deflection.
LDR=Load/DeflectionLDR=Load/Deflection
14. FFααEdrEdr44
dd αα ll33
ll33
rr44
E- Modulus of elasticityE- Modulus of elasticity
d- Deflectiond- Deflection
r- Radiusr- Radius
l- Lengthl- Length
Doubling radius = Increases force 16 foldDoubling radius = Increases force 16 fold
Doubling length = Reduces force 8 foldDoubling length = Reduces force 8 fold
16. Low stiffness or LDR impliesLow stiffness or LDR implies
i.i. Low forces will be appliedLow forces will be applied
ii.ii. Forces more constant as appliance deactivatesForces more constant as appliance deactivates
iii.iii. Greater ease & accuracy in applying a given forceGreater ease & accuracy in applying a given force
-For active components low LDR-For active components low LDR
-For retentive components high LDR-For retentive components high LDR
‘‘Variable Cross-section Orthodontics’-BurstoneVariable Cross-section Orthodontics’-Burstone
‘‘Variable Modulus Orthodontics’Variable Modulus Orthodontics’
NiTi ≤ TMA ≤ ss wireNiTi ≤ TMA ≤ ss wire
17. 3)3) Strength: Force required to activate an archwire to aStrength: Force required to activate an archwire to a
specific distance- Kusyspecific distance- Kusy
Shape and cross-section of wire have an effectShape and cross-section of wire have an effect
4)4) Range: Distance to which an archwire bendsRange: Distance to which an archwire bends
elastically, before permanent deformation occurs-elastically, before permanent deformation occurs-
ProffitProffit
5)5) Springback: The extent to which the wire reverses itsSpringback: The extent to which the wire reverses its
shape after permanent deformation.shape after permanent deformation.
Wire can be activated to a large extent hence fewerWire can be activated to a large extent hence fewer
activations will be neededactivations will be needed
18. 6)6) Formability: Ability to bend wire in desiredFormability: Ability to bend wire in desired
configuration.configuration.
7)7) Resiliency: Amount of energy stored in a body.Resiliency: Amount of energy stored in a body.
19. 8)8) Friction: While closing spaces in continuous archwireFriction: While closing spaces in continuous archwire
technique, involves relative motion of bracket over wire.technique, involves relative motion of bracket over wire.
Excess friction- loss of anchorExcess friction- loss of anchor
- binding- binding
Least amount of friction desiredLeast amount of friction desired
9)9) Biohostability: Ability of a wire to accumulate, or be a siteBiohostability: Ability of a wire to accumulate, or be a site
of accumulation of bacteria, spores or virusesof accumulation of bacteria, spores or viruses
10)10) Biocompatibility: Resistance to corrosion and tissueBiocompatibility: Resistance to corrosion and tissue
tolerance to elements in the wire.tolerance to elements in the wire.
11)11) Weldability: Ease by which a wire can be joined to otherWeldability: Ease by which a wire can be joined to other
metals by actually melting the 2 metals in the area of themetals by actually melting the 2 metals in the area of the
bondbond
21. Definition:Definition:
Mechanical Orthodontic Appliances are instrumentsMechanical Orthodontic Appliances are instruments
which apply pressure or offer resistance to the teethwhich apply pressure or offer resistance to the teeth
for the purpose of stimulating alveolar bone changefor the purpose of stimulating alveolar bone change
bringing about changes in the position of teeth.bringing about changes in the position of teeth.
22. ClassificationClassification
Appliances that affect actual tooth movementAppliances that affect actual tooth movement
through adjustment of springs or attachments withinthrough adjustment of springs or attachments within
the appliance-the appliance- ACTIVE PLATEACTIVE PLATE
Appliances that stimulate reflex muscle activityAppliances that stimulate reflex muscle activity
which in turn produces desired tooth movement-which in turn produces desired tooth movement-
FUNCTIONAL APPLIANCESFUNCTIONAL APPLIANCES
23. II.II. According to site of appliance placementAccording to site of appliance placement
1.1. ExtraoralExtraoral
2.2. IntraoralIntraoral
3.3. CombinationCombination
III.III. According to plane of movementAccording to plane of movement
1.1. TransverseTransverse
2.2. SaggitalSaggital
3.3. VerticalVertical
24. IV.IV. Based on method of curingBased on method of curing
1.1. Heat cureHeat cure
2.2. Self cureSelf cure
3.3. Light cureLight cure
25. Minor tooth movement technique may be consideredMinor tooth movement technique may be considered
o Malposition limited to relatively few teethMalposition limited to relatively few teeth
o Desired movement not more than few mmDesired movement not more than few mm
o Adequate space between adjacent teeth to permitAdequate space between adjacent teeth to permit
entry of teeth to be movedentry of teeth to be moved
o Allowable axial inclination corrected by tippingAllowable axial inclination corrected by tipping
forcesforces
o Correctable etiologic factorsCorrectable etiologic factors
o Favorable periodontal and periapical prognosisFavorable periodontal and periapical prognosis
o Absence of contraindicationsAbsence of contraindications
IndicationsIndications
26. • Excessive flaring of maxillary anterior teethExcessive flaring of maxillary anterior teeth
• Diastima closureDiastima closure
• Crossbite correctionCrossbite correction
• Anterior crowdingAnterior crowding
PreprostheticPreprosthetic
• Closing of spacesClosing of spaces
• Uprighting of teethUprighting of teeth
27. Preventive PeriodonticPreventive Periodontic
• Migration of mandibular incisorsMigration of mandibular incisors
Correction of Speech DefectsCorrection of Speech Defects
Facilitation of Oral Surgical ProceduresFacilitation of Oral Surgical Procedures
Retention after corrected malocclusionRetention after corrected malocclusion
•
28. ProceduralProcedural
• To gain spaceTo gain space
Preventive and interceptive orthodonticsPreventive and interceptive orthodontics
29. 1.Tipping movement
2.Can be removed
-for cleaning of teeth & appliance
-if in pain
-on socially sensitive occasion
3.Less conspicuous
4.Can be undertaken by general
practitioner with adequate
training
5.Manufactured in lab
-less chair side time
-more patients can be treated
6.Inexpensive
1.Only simple malocclusion can be
corrected
2.Multiple rotations cannot
be corrected
3.Uncooperative patients may
leave out the appliance-
prolongs treatment
4.Multiple tooth movement
- one at a time- prolongs Rx duration
5.Lower appliance not well tolerated
6.Cases other than I premolar
extraction cannot be treated easily
AdvantagesAdvantages DisadvantagesDisadvantages
30. Components of removable appliancesComponents of removable appliances
Retentive ComponentsRetentive Components
BaseplateBaseplate
Active componentsActive components
31. Retentive ComponentsRetentive Components
Retention: Means whereby displacement of appliance isRetention: Means whereby displacement of appliance is
resisted.resisted.
Clasp: any hook or band attached to a natural tooth andClasp: any hook or band attached to a natural tooth and
used to anchor a partial denture or an orthodonticused to anchor a partial denture or an orthodontic
appliance.appliance.
32. Circumferential ClaspCircumferential Clasp
• Fabricated using wire 0.9mmFabricated using wire 0.9mm
• -Also known as ‘C’ clasp or Three Quarter Clasp-Also known as ‘C’ clasp or Three Quarter Clasp
Simple clasp used to engage buccocervical undercutSimple clasp used to engage buccocervical undercut
Cannot be used in partially erupted teethCannot be used in partially erupted teeth
33. Jackson’s ClaspJackson’s Clasp
- Fabricated using 0.9mm wire- Fabricated using 0.9mm wire
- Also known as Full clasp or ‘U’ clasp- Also known as Full clasp or ‘U’ clasp
- Engages both buccocervical undercuts- Engages both buccocervical undercuts
Simple designSimple design
Offers adequate retentionOffers adequate retention
Inadequate retention in partially erupted teethInadequate retention in partially erupted teeth
34. Triangular ClaspTriangular Clasp
-Fabricated using 0.6mm wire-Fabricated using 0.6mm wire
-used between adjacent posterior teeth-used between adjacent posterior teeth
-Indicated for additional retention-Indicated for additional retention
35. Adam’s ClaspAdam’s Clasp
-Also known as Liverpool Clasp,-Also known as Liverpool Clasp,
Universal Clasp,Universal Clasp,
Modified Arrowhead ClaspModified Arrowhead Clasp
PartsParts
BridgeBridge
ArrowheadArrowhead
Retentive armsRetentive arms
36. Advantages:Advantages:
Small, neat, unobtrusive, occupies minimum spaceSmall, neat, unobtrusive, occupies minimum space
Rigid, offers excellent retentionRigid, offers excellent retention
Used on any tooth in the archUsed on any tooth in the arch
If broken can be repaired by solderingIf broken can be repaired by soldering
Permits modifications in designPermits modifications in design
Extensive wire bending incorporates stresses in theExtensive wire bending incorporates stresses in the
wirewire
37. ModificationsModifications
Adams clasp with single arrowhead:Adams clasp with single arrowhead:
Adams clasp with J hookAdams clasp with J hook
Adams clasp with helixAdams clasp with helix
Adams clasp with additional arrowheadAdams clasp with additional arrowhead
Adams clasp with soldered buccal tubeAdams clasp with soldered buccal tube
38. Adams clasp with distal extensionAdams clasp with distal extension
Double clasp on maxillary central incisorsDouble clasp on maxillary central incisors
39. Schwarz ClaspSchwarz Clasp
Designed by C. M. SchwarzDesigned by C. M. Schwarz
Oldest & for a considerable amount of time mostOldest & for a considerable amount of time most
generally usedgenerally used
Adj: Arrowhead bent towards papilla to engageAdj: Arrowhead bent towards papilla to engage
undercutsundercuts
Can be used in deciduous or permanent teethCan be used in deciduous or permanent teeth
Skill to fabricateSkill to fabricate
Can be used only on posterior teethCan be used only on posterior teeth
40. Duyzings ClaspDuyzings Clasp
-Simple design-Simple design
-engages buccal undercut of molars-engages buccal undercut of molars
-half clasp can also be constructed-half clasp can also be constructed
Adj: Bending towards the tooth or undercut areaAdj: Bending towards the tooth or undercut area
41. Eyelet ClaspEyelet Clasp
-similar to triangular clasp-similar to triangular clasp
-used as single eyelet or multiple eyelet clasp-used as single eyelet or multiple eyelet clasp
-eyelets placed in embrasures-eyelets placed in embrasures
Adj: Bending eyelet interdentally towards the toothAdj: Bending eyelet interdentally towards the tooth
No sharp bends, breakage unlikelyNo sharp bends, breakage unlikely
Does not interfere with eruption of teethDoes not interfere with eruption of teeth
On single tooth does not have firm gripOn single tooth does not have firm grip
42. Delta ClaspDelta Clasp
• Designed by William J. ClarkDesigned by William J. Clark
• Similar to Adams clasp in principleSimilar to Adams clasp in principle
• Engage interdental undercutsEngage interdental undercuts
Adj: -hold retentive loop and twist inwardsAdj: -hold retentive loop and twist inwards
-bending towards interdental undercut as it-bending towards interdental undercut as it
emerges from acrylicemerges from acrylic
43. Southend ClaspSouthend Clasp
-0.7 mm wire-0.7 mm wire
-spans two adjacent margins of anterior teeth-spans two adjacent margins of anterior teeth
Adj: readapting into interdental areaAdj: readapting into interdental area
Esthetically more pleasingEsthetically more pleasing
44. Ballend ClaspBallend Clasp
• Wire having a knob or ball like structure on one endWire having a knob or ball like structure on one end
• utilizes interdental undercutsutilizes interdental undercuts
• Indicated when additional retention requiredIndicated when additional retention required
45. BaseplateBaseplate
Greatest portion of removable applianceGreatest portion of removable appliance
1-2mm thick1-2mm thick
3 main purposes3 main purposes
1.1. Act as vehicle to carry all parts of the applianceAct as vehicle to carry all parts of the appliance
2.2. Serve as anchorageServe as anchorage
3.3. Become an active part of appliance itselfBecome an active part of appliance itself
46. ANCHORAGEANCHORAGE
AnchorageAnchorage resists forces of reaction generated by activeresists forces of reaction generated by active
components. Thus, sites of anchorage must be equal incomponents. Thus, sites of anchorage must be equal in
magnitude but opposite in direction to those generatedmagnitude but opposite in direction to those generated
by active components.by active components.
Simple AnchorageSimple Anchorage: Teeth which offer greater resistance: Teeth which offer greater resistance
to movement, used as anchorage for movement ofto movement, used as anchorage for movement of
lesser resistancelesser resistance
47. • Usually made of AcrylicUsually made of Acrylic
• As thin as possible(1-2mm)As thin as possible(1-2mm)
• Closely adaptedClosely adapted
• Extend as far as necessary to obtain anchorageExtend as far as necessary to obtain anchorage
• Lower baseplate- U shaped, relatively thickerLower baseplate- U shaped, relatively thicker
• Shallow lingual sulcus reinforced with ss wire or barShallow lingual sulcus reinforced with ss wire or bar
Heat cureHeat cure
Self cureSelf cure
Light cureLight cure
Biocryl: Biostar pressure molding machineBiocryl: Biostar pressure molding machine
49. Anterior biteplaneAnterior biteplane
-Platform behind upper incisor teeth-Platform behind upper incisor teeth
-Height enough to separate-Height enough to separate
posterior teeth by 1.5-2mmposterior teeth by 1.5-2mm
-Reduce overbite of anterior teeth-Reduce overbite of anterior teeth
-‘opening the bite’-‘opening the bite’
-Height of plane gradually increased-Height of plane gradually increased
Proclination of upper incisorsProclination of upper incisors
*Placement of labial bow*Placement of labial bow
*Sved biteplane*Sved biteplane
50. Sved BiteplaneSved Biteplane
-Introduced by Sved in 1944-Introduced by Sved in 1944
-Covers incisal edges of upper anteriors-Covers incisal edges of upper anteriors
-Pressure transmitted axially-Pressure transmitted axially
-Retention questionable-Retention questionable
-Ideal in growing individuals-Ideal in growing individuals
51. Posterior BiteplanePosterior Biteplane
• displacing activity of mandibledisplacing activity of mandible
• unilateral posterior crossbiteunilateral posterior crossbite
52. • wide enough to contact buccal & palatal cuspswide enough to contact buccal & palatal cusps
• occlusion disengagedocclusion disengaged
• equal on both sidesequal on both sides
• after correction appliance acts as retainerafter correction appliance acts as retainer
53. Lower Inclined PlaneLower Inclined Plane
• Catlan more than 200 yrs agoCatlan more than 200 yrs ago
• Anterior crossbiteAnterior crossbite
• 45 degrees to occ plane45 degrees to occ plane
• Upper incisors guided intoUpper incisors guided into
correct position labiallycorrect position labially
• indicated when incisors are inindicated when incisors are in
early stage of eruptionearly stage of eruption
If used for more than 6wks-If used for more than 6wks-
anterior open bite resultsanterior open bite results
May need frequent cementationMay need frequent cementation
56. LABIAL BOWSLABIAL BOWS
May have 2 functionsMay have 2 functions
1)1) Serve as active element for movement of teethServe as active element for movement of teeth
2)2) Hold the plate in place & retain the teethHold the plate in place & retain the teeth
57. Labial Bow with ‘U’ loopLabial Bow with ‘U’ loop
• 0.7 mm wire0.7 mm wire
• flexibility depends on vertical height of ‘U’ loopsflexibility depends on vertical height of ‘U’ loops
• Only minor overjet reduction or incisor alignmentOnly minor overjet reduction or incisor alignment
requiredrequired
58. Adj: Compressing of ‘U’ loopAdj: Compressing of ‘U’ loop
Displaced palatally by only 1mmDisplaced palatally by only 1mm
59. Long Labial BowLong Labial Bow
• Used to close space between canine and premolarUsed to close space between canine and premolar
• Can control the canineCan control the canine
• Used for retentionUsed for retention
60. Split Labial BowSplit Labial Bow
• flexibility increasedflexibility increased
• incisor retractionincisor retraction
Adj: at the ‘U’ loopAdj: at the ‘U’ loop
61. Labial Bow with Reverse LoopLabial Bow with Reverse Loop
• Prevents buccal drifting of caninePrevents buccal drifting of canine
Adj: Done in 2 stagesAdj: Done in 2 stages
1)1) Vertical loop opened by compressing with plierVertical loop opened by compressing with plier
2)2) This lowers the bow in incisor regionThis lowers the bow in incisor region
compensating bends at the base of the loopcompensating bends at the base of the loop
62. Mills Bow /Extended Labial BowMills Bow /Extended Labial Bow
• Made of 0.7mm wireMade of 0.7mm wire
• Extensive loops- flexibility greatly increasedExtensive loops- flexibility greatly increased
Indications -Reducing large overbitesIndications -Reducing large overbites
-Alignment of irregular incisors-Alignment of irregular incisors
Flexible, lighter forces, long range of actionFlexible, lighter forces, long range of action
In mixed dentition when canines not eruptedIn mixed dentition when canines not erupted
Due to extensive loops less comfortableDue to extensive loops less comfortable
63. High Labial Bow with Apron SpringHigh Labial Bow with Apron Spring
• Heavy base arch of 0.9mm wireHeavy base arch of 0.9mm wire
• Apron spring 0.3-0.4mmApron spring 0.3-0.4mm
Adj: Bent towards the teethAdj: Bent towards the teeth
64. Retraction of teeth with severe proclinationRetraction of teeth with severe proclination
Light forcesLight forces
Longer range of actionLonger range of action
Not well tolerated by the patientNot well tolerated by the patient
Time consuming to fabricateTime consuming to fabricate
Cannot be used in patients with shallow sulcusCannot be used in patients with shallow sulcus
65.
66. Roberts RetractorRoberts Retractor
• Flexible bow constructed of 0.5mm wireFlexible bow constructed of 0.5mm wire
• Steel tubing to give supportSteel tubing to give support
• Coil placed at the point of emergence from the tubingCoil placed at the point of emergence from the tubing
• Ajd: Vertical limb below the coilAjd: Vertical limb below the coil
67. Fitted Labial BowFitted Labial Bow
• 0.7 mm wire0.7 mm wire
• Adapted closely to labial surface of anterior teethAdapted closely to labial surface of anterior teeth
• Used for retentionUsed for retention
Time consumingTime consuming
68. Beggs Retenton BowBeggs Retenton Bow
• 0.7mm wire extends till last erupted molar0.7mm wire extends till last erupted molar
• ’’U’ loops made between I & II premolarsU’ loops made between I & II premolars
Allows settling of occlusionAllows settling of occlusion
If not constructed well retention may not be goodIf not constructed well retention may not be good
69. SPRINGSSPRINGS
Most commonly used active elementsMost commonly used active elements
Requirements:Requirements:
springs should deliver optimum forcesprings should deliver optimum force
should possess high degree of elasticityshould possess high degree of elasticity
should have long range of actionshould have long range of action
70. Force systems delivered depend onForce systems delivered depend on
Intrinsic properties-Intrinsic properties- cannot be altered by operatorcannot be altered by operator
-modulus of elasticity-modulus of elasticity
-yield strength-yield strength
Extrinsic properties-Extrinsic properties- operator can exercise controloperator can exercise control
-length of wire-length of wire
-thickness of wire-thickness of wire
Small changes in diameter and length have a profoundSmall changes in diameter and length have a profound
impact on the force deliveredimpact on the force delivered
71. Effect of wire diameter on force deliveredEffect of wire diameter on force delivered
-amount of activation-amount of activation
0.5mm- 3mm activation0.5mm- 3mm activation
0.7mm- 1mm activation- little margin of error0.7mm- 1mm activation- little margin of error
Effect of wire lengthEffect of wire length
Coil- increase length of springCoil- increase length of spring
Lower force with same amount of activationLower force with same amount of activation
72. Classification of SpringsClassification of Springs
II.. Based on direction of tooth movementBased on direction of tooth movement
1.1. Springs for mesio-distal tooth movementSprings for mesio-distal tooth movement
2.2. Spring for labio-lingual tooth movementSpring for labio-lingual tooth movement
3.3. Springs for expansion of archesSprings for expansion of arches
II.II. Based on nature of supportBased on nature of support
1.1. Self supported springsSelf supported springs
2.2. Guided springsGuided springs
3.3. Auxiliary springsAuxiliary springs
III.III. Based on presence of loop or helixBased on presence of loop or helix
73. Single Cantilever SpringSingle Cantilever Spring
active armactive arm
Parts coilParts coil
retentive armretentive arm
• 0.5-0.6mm wire0.5-0.6mm wire
• coil with internal diameter of 3mmcoil with internal diameter of 3mm
• used to move teeth labio-lingually or mesio-diatallyused to move teeth labio-lingually or mesio-diatally
74. Double Cantilever Spring / Z springDouble Cantilever Spring / Z spring
• Constructed using 0.5 or 0.6 mm wireConstructed using 0.5 or 0.6 mm wire
• Spring perpendicular to palatal surface of toothSpring perpendicular to palatal surface of tooth
• Indicated where incisors are to be proclinedIndicated where incisors are to be proclined
Activation: Opening both coilsActivation: Opening both coils
If not perpendicular to palatial surface of teeth, itIf not perpendicular to palatial surface of teeth, it
tends to intrude teeth.tends to intrude teeth.
75. ‘‘T’ SpringT’ Spring
• Constructed using 0.5 mm wireConstructed using 0.5 mm wire
• Buccal movement of premolars and molarsBuccal movement of premolars and molars
Activation: Pulling spring away from the baseplateActivation: Pulling spring away from the baseplate
76. Coffin SpringCoffin Spring
• Described by Walter.H.Coffin in 1881Described by Walter.H.Coffin in 1881
• Made in 2 segments, large enough to make contactMade in 2 segments, large enough to make contact
with all teeth to be movedwith all teeth to be moved
• Made of 1.25 mm wireMade of 1.25 mm wire
• Spring stands 1 mm away from the soft tissuesSpring stands 1 mm away from the soft tissues
77. Indications:Indications:
Transverse arch expansion – Unilateral crossbite withTransverse arch expansion – Unilateral crossbite with
lateral mandibular displacementlateral mandibular displacement
Advantage over screw – Differential expansion can beAdvantage over screw – Differential expansion can be
obtained.obtained.
Unless expertly made and adjusted, tends to be raterUnless expertly made and adjusted, tends to be rater
unstable.unstable.
79. Canine RetractorsCanine Retractors
• Type of springType of spring
• used to move canine in distal directionused to move canine in distal direction
CLASSIFICATIONCLASSIFICATION
I.I. Based on location -buccalBased on location -buccal
-palatal-palatal
II.II. Based on presence of helix or loopBased on presence of helix or loop
III.III. Based on mode of action -push typeBased on mode of action -push type
-pull type-pull type
80. Buccal Self Sopported Canine RetractorBuccal Self Sopported Canine Retractor
• 0.7 mm wire0.7 mm wire
• buccally placed canine is to be moved palatally andbuccally placed canine is to be moved palatally and
distallydistally
• coil just distal to long axis of toothcoil just distal to long axis of tooth
81. Activation:Activation: by 1mmby 1mm
Distal -closing the loopDistal -closing the loop
Palatal -anterior limb is bent towards the toothPalatal -anterior limb is bent towards the tooth
after it emerges from the coilafter it emerges from the coil
Uncomfortable to patientUncomfortable to patient
Stability increased- flexibility compromisedStability increased- flexibility compromised
82. Supported Buccal Canine RetractorSupported Buccal Canine Retractor
• identical in design to self supported retractoridentical in design to self supported retractor
• 0.5mm wire supported in tubing0.5mm wire supported in tubing
Activation: by 2mmActivation: by 2mm
83. Reverse Loop Canine RetractorReverse Loop Canine Retractor
• can be used in shallow sulcuscan be used in shallow sulcus
Activation: 1mmActivation: 1mm
i.i. cut off 1mm from the free end & readapt itcut off 1mm from the free end & readapt it
ii.ii. opening the coilopening the coil
84. ‘‘U’ Loop Buccal Canine RetractorU’ Loop Buccal Canine Retractor
• can be used in sallow sulcuscan be used in sallow sulcus
Activation: free end is cut by 1mm & readaptedActivation: free end is cut by 1mm & readapted
Requires frequent adjustmentRequires frequent adjustment
85. Palatal Canine RetractorPalatal Canine Retractor
-canine placed palatally requiring distal buccal-canine placed palatally requiring distal buccal
movementmovement
-coil of 3mm placed between the initial & final position-coil of 3mm placed between the initial & final position
of canineof canine
86. Boxing & GuardingBoxing & Guarding
• Boxing to protect from damageBoxing to protect from damage
• Spring lies in the recess between baseplate &mucosaSpring lies in the recess between baseplate &mucosa
• Guard to prevent distortion during removalGuard to prevent distortion during removal
87. -often cranked-often cranked
Activation: 1-2mm by opening the coilActivation: 1-2mm by opening the coil
-should not be bent where it merges from the baseplate-should not be bent where it merges from the baseplate
89. ScrewsScrews
Used for moving individual teeth or group of teethUsed for moving individual teeth or group of teeth
Types of screwsTypes of screws
2 types of expansion screws2 types of expansion screws
Skeletal expansion screwSkeletal expansion screw
Dental expansion screwDental expansion screw
90. Types of ScrewsTypes of Screws
Maxillary expansionMaxillary expansion
Mandibular expansionMandibular expansion
Bilateral expansionBilateral expansion
Sectional expansionSectional expansion
Radial expansionRadial expansion
Expansion in three directionsExpansion in three directions
91. ActivationActivation
Screw is turned 90 degreesScrew is turned 90 degrees
Will drive the parts of the plate apart by 0.2 mmWill drive the parts of the plate apart by 0.2 mm
Narrows periodontal membrane by 0.1 mm on eachNarrows periodontal membrane by 0.1 mm on each
sideside
Ideal orthodonticIdeal orthodontic condition for transformation of bonecondition for transformation of bone
92. Uses :Uses : Baseplate divided into sections driven apart byBaseplate divided into sections driven apart by
one or more screwsone or more screws
1)1) Split along midline – Bilateral crossbite and minorSplit along midline – Bilateral crossbite and minor
crowding of incisorscrowding of incisors
93. 2)2) Split into a larger and a smaller partSplit into a larger and a smaller part
97. 3)3) Lingually locked and crowded upper centralLingually locked and crowded upper central
incisor tipped forward using springs afterincisor tipped forward using springs after
space provided by moderate expansionspace provided by moderate expansion
98. 4)4) Expansion and reduction of overjetExpansion and reduction of overjet
99. 5)5) Y-Plates – For alignment of crowded canines byY-Plates – For alignment of crowded canines by
saggital and lateral expansionsaggital and lateral expansion
100. ElasticsElastics
Resembles rubber bandResembles rubber band
Made of latex rubberMade of latex rubber
Available in various diameters – force applied dependsAvailable in various diameters – force applied depends
on their diameteron their diameter
Colour coded for easy identificationColour coded for easy identification
Uses :Uses :
For movement of singe teeth and groups of teethFor movement of singe teeth and groups of teeth
For intermaxillary tractionFor intermaxillary traction
101. Molar intrusion with removable a applianceMolar intrusion with removable a appliance
Giuilio Alessandri Bonatti, Daniela GiuntaGiuilio Alessandri Bonatti, Daniela Giunta
JCO Aug 1996JCO Aug 1996
CASE 1CASE 1
102. After 4 months Prosthetic replacementAfter 4 months Prosthetic replacement
CASE 1CASE 1
106. SolderingSoldering
Soldering is the joining of two metals by the use of fillerSoldering is the joining of two metals by the use of filler
metal which has a substantially low fusionmetal which has a substantially low fusion
temperature than that of the metal parts being joinedtemperature than that of the metal parts being joined
Fusion temperature of filler metal ≤ 450Fusion temperature of filler metal ≤ 450°°
BrazingBrazing
Fusion temperature of filler metal ≥ 450°Fusion temperature of filler metal ≥ 450°
107. Dental soldersDental solders
Dental solders are alloys used as intermediary or fillerDental solders are alloys used as intermediary or filler
metals to join two or more metallic parts.metals to join two or more metallic parts.
Composed of gold, silver, copper, zinc, tin, nickelComposed of gold, silver, copper, zinc, tin, nickel
Requisites of a solderRequisites of a solder
1.1. Good tarnish & corrosion resistanceGood tarnish & corrosion resistance
2.2. Fusion temperature should be lower than that ofFusion temperature should be lower than that of
parts being joined. (50parts being joined. (50°°-100-100°° less)less)
3.3. Should be free flowing and adequately wet the metalShould be free flowing and adequately wet the metal
parts for good adhesionparts for good adhesion
4.4. Strength of solder comparable to metals beingStrength of solder comparable to metals being
joinedjoined
5.5. Colour of solder should match with parts beingColour of solder should match with parts being
solderedsoldered
108. Flux:Flux: in Latin means ‘flow’in Latin means ‘flow’
• Removes oxide coating to increase flow of the moltenRemoves oxide coating to increase flow of the molten
soldersolder
• Dissolves any surface impuritiesDissolves any surface impurities
• Prevents oxidation of metalsPrevents oxidation of metals
• Reduces melting point of dental solderReduces melting point of dental solder
Flux used commonlyFlux used commonly
Borax Glass- 55%Borax Glass- 55%
Boric acid- 35%Boric acid- 35%
Silica- 10%Silica- 10%
Fluoride fluxes- Boric acid : Potassium fluoride(1:1)Fluoride fluxes- Boric acid : Potassium fluoride(1:1)
109. AntifluxAntiflux
Material used to confine the flow of molten solder overMaterial used to confine the flow of molten solder over
metals being joinedmetals being joined
GraphiteGraphite
110. Stainless steel is difficult to solderStainless steel is difficult to solder
1)1) No union between solder & steelNo union between solder & steel
under conditions of stress & strain in the mouth-under conditions of stress & strain in the mouth-
Joint failureJoint failure
2)2) Heating to temperature required for solderingHeating to temperature required for soldering
anneals- useless for spring purposeanneals- useless for spring purpose
3)3) Passive surface film of chromium protects it fromPassive surface film of chromium protects it from
further oxidation- inhibits flow of solderfurther oxidation- inhibits flow of solder
Good designGood design
Accurate control of heat distributionAccurate control of heat distribution
Use of fluoride containing fluxUse of fluoride containing flux
112. • Miniature butane blow lampMiniature butane blow lamp
• Jet of fine needle flame 1cm longJet of fine needle flame 1cm long
• Reducing zone of flameReducing zone of flame
• Twisting one wire around the otherTwisting one wire around the other
• Overheating-burning of wire and solder –rough pittedOverheating-burning of wire and solder –rough pitted
surface on soldering.surface on soldering.
• Soldering to be performed in one heating if possible.Soldering to be performed in one heating if possible.
• Localization of heat to the site of solder.Localization of heat to the site of solder.
113. WeldingWelding
Welding is process by which surfaces of metal areWelding is process by which surfaces of metal are
joined by mixing, with or without use of heatjoined by mixing, with or without use of heat
Design of welder for orthodontic purposeDesign of welder for orthodontic purpose
Fred in 1938Fred in 1938
Mc Keag in 1939Mc Keag in 1939
Principle design features- speed & powerPrinciple design features- speed & power
114. Cold welding- done by hammering or pressure.Cold welding- done by hammering or pressure.
Hot welding- Heat of sufficient intensity to melt metalsHot welding- Heat of sufficient intensity to melt metals
being joined.being joined.
3 methods of welding used in dentistry3 methods of welding used in dentistry
1)1) Spot weldingSpot welding
2)2) Pressure weldingPressure welding
3)3) Laser weldingLaser welding
115. Spot weldingSpot welding
Convenient method of uniting pieces of metal of theConvenient method of uniting pieces of metal of the
same kindsame kind
Clean, Quick, produces joints that are strong & reliableClean, Quick, produces joints that are strong & reliable
Basic Principles- Heat & pressureBasic Principles- Heat & pressure
Electric current conducted through 2 copper electrodesElectric current conducted through 2 copper electrodes
Resistance offered generates very high temperatureResistance offered generates very high temperature
Copper electrodes simultaneously apply pressure onCopper electrodes simultaneously apply pressure on
metalsmetals
Metal melts at contact points and pressure squeezesMetal melts at contact points and pressure squeezes
metal into each othermetal into each other
118. Pressure WeldingPressure Welding
Metal parts placed togetherMetal parts placed together
Sufficiently large force applied perpendicular to theSufficiently large force applied perpendicular to the
surface- welding occurssurface- welding occurs
Force applied should be sufficiently largeForce applied should be sufficiently large
Laser WeldingLaser Welding
High intensity pulse of light that can be focusedHigh intensity pulse of light that can be focused
Select duration & intensity of pulse- metal melts inSelect duration & intensity of pulse- metal melts in
small region without micro structural damage tosmall region without micro structural damage to
surrounding areassurrounding areas
120. Hawley’s ApplianceHawley’s Appliance
Designed by Charles Hawley in 1908Designed by Charles Hawley in 1908
Most frequently used retainerMost frequently used retainer
Short labial bowShort labial bow
Adams Clasp on molarsAdams Clasp on molars
121. Modifications :Modifications :
Long labial bow – Closing space distal to canineLong labial bow – Closing space distal to canine
Labial bow soldered to bridge of Adams clasp –Labial bow soldered to bridge of Adams clasp –
avoids risk of space opening due to cross over wireavoids risk of space opening due to cross over wire
Fitted labial bow – Offers excellent retentionFitted labial bow – Offers excellent retention
Anterior bite plane – To retain or correct deep biteAnterior bite plane – To retain or correct deep bite
casescases
Expansion screw with split labial bowExpansion screw with split labial bow
With tongue crib.With tongue crib.
With Z spring on second molars for lingualWith Z spring on second molars for lingual
movement of molarsmovement of molars
123. High Labial RetainerHigh Labial Retainer
Harvey L. LavittHarvey L. Lavitt
JCO Jan1972JCO Jan1972
• Control over each tooth seperatelyControl over each tooth seperately
• Springs for correction of rotation and uprightingSprings for correction of rotation and uprighting
• Both active and retentiveBoth active and retentive
• More estheticMore esthetic
124. A Removable CUSPID-TO-CUSPID RetainerA Removable CUSPID-TO-CUSPID Retainer
DOUGLAS J. SHILLIDAY (JCO 1973)DOUGLAS J. SHILLIDAY (JCO 1973)
125. Begg’s Wraparound retainerBegg’s Wraparound retainer
Popularized by P.R.Begg.Popularized by P.R.Begg.
Bow extending till last erupted molarBow extending till last erupted molar
No crossover wire, eliminates risk of space openingNo crossover wire, eliminates risk of space opening
upup
126. Clip-on RetainerClip-on Retainer
Wire runs labial to incisors, passes between canine andWire runs labial to incisors, passes between canine and
premolarpremolar
Both labial and lingual wire segments embedded inBoth labial and lingual wire segments embedded in
strips of acrylicstrips of acrylic
Brings out correction of rotation in lower anteriorBrings out correction of rotation in lower anterior
segmentssegments
127. Van der Linden RetainerVan der Linden Retainer
JCO May2003JCO May2003
128. Kesling’s Tooth positionerKesling’s Tooth positioner
Described by H.D.Kesling in 1945Described by H.D.Kesling in 1945
Made of thermoplastic rubber like materialMade of thermoplastic rubber like material
Spans interocclusal space and covers clinical crownsSpans interocclusal space and covers clinical crowns
and a small portion of gingivaand a small portion of gingiva
No activation neededNo activation needed
Difficulty in speechDifficulty in speech
Risk of TMJ problemsRisk of TMJ problems
129. Essix Retainers- Fabrication and supervision forEssix Retainers- Fabrication and supervision for
permanent retentionpermanent retention
John. J. Sheridan, Willaim Ledoux, Robert McminJohn. J. Sheridan, Willaim Ledoux, Robert Mcmin
JCO Jan 1993JCO Jan 1993
130. Wraparound cantilever retainerWraparound cantilever retainer
Timonthy J. TremontTimonthy J. Tremont
JCO Feb- 2003JCO Feb- 2003
•Ideal for a well finished caseIdeal for a well finished case
•Cantilever arm- middle of first bicuspidCantilever arm- middle of first bicuspid
soldered to labial bowsoldered to labial bow
•Bow adjusted by giving a slight bend in the cantilever armBow adjusted by giving a slight bend in the cantilever arm
131. • Thermoplastic copolymer retainerThermoplastic copolymer retainer
• Thin, yet strong, cuspid-cuspidThin, yet strong, cuspid-cuspid
• Low cost & ease of fabricationLow cost & ease of fabrication
• Brilliant appearance of teeth caused by light reflectionBrilliant appearance of teeth caused by light reflection
• Thickness- .030”Space cut at distogingival marginThickness- .030”Space cut at distogingival margin
to allow removal removalto allow removal removal
132. •Pontic can be incorporated for missing anterior toothPontic can be incorporated for missing anterior tooth
133. Habit Breaking/Restraining AppliancesHabit Breaking/Restraining Appliances
Tongue crib applianceTongue crib appliance
Tongue crib anchored to oral cavity by clasps and labialTongue crib anchored to oral cavity by clasps and labial
bowbow
Used for interception of habits like tongue thrusting andUsed for interception of habits like tongue thrusting and
thumb sucking.thumb sucking.
134. Oral Screen/Vestibular screenOral Screen/Vestibular screen
• Introduced by Newell in 1912Introduced by Newell in 1912
• Shield of acrylic placed in the labial vestibuleShield of acrylic placed in the labial vestibule
• Designed to screen oral cavityDesigned to screen oral cavity
• Metal ring projecting between upper and lower lipsMetal ring projecting between upper and lower lips
• Used to intercept habits like thumb sucking, tongue thrustingUsed to intercept habits like thumb sucking, tongue thrusting
and mouth breathing.and mouth breathing.
135. ModificationsModifications
• For interception of tongue thrusting :For interception of tongue thrusting :
• Additional screen placed in the lingual aspect,Additional screen placed in the lingual aspect,
attached to the vestibular screen by means of a thickattached to the vestibular screen by means of a thick
wirewire
• For mouth breathing- when airways are openFor mouth breathing- when airways are open
• Fabricated with a number of holes that are graduallyFabricated with a number of holes that are gradually
closed.closed.
• Open bite in deciduous & mixed dentitionOpen bite in deciduous & mixed dentition
• Mild disto-occlosion with premaxillary protrusionMild disto-occlosion with premaxillary protrusion
136. Space MaintainersSpace Maintainers
Space maintenance is a process of maintaining the spaceSpace maintenance is a process of maintaining the space
previously occupied by a tooth or several teeth beforepreviously occupied by a tooth or several teeth before
the eruption of permanent tooth.the eruption of permanent tooth.
ClassificationClassification
Functional- teeth incorporated to aid in mastication,Functional- teeth incorporated to aid in mastication,
speech and esthetics.speech and esthetics.
Nonfunctional- acrylic extension over edentulousNonfunctional- acrylic extension over edentulous
area to prevent space closurearea to prevent space closure
137. Class I: Unilateral maxillary posteriorClass I: Unilateral maxillary posterior
Class II: Unilateral mandibular posteriorClass II: Unilateral mandibular posterior
Class III: Bilateral maxillary posteriorClass III: Bilateral maxillary posterior
Class IV: Bilateral mandibular posteriorClass IV: Bilateral mandibular posterior
142. Lip Bumper/ Lip ShieldLip Bumper/ Lip Shield
Extends into the vestibular sulcus to the labial foldExtends into the vestibular sulcus to the labial fold
No contact made between shield and incisorsNo contact made between shield and incisors
Eliminates persistent hyperactivity of mentalis muscleEliminates persistent hyperactivity of mentalis muscle
Class II div 1 malocclusionClass II div 1 malocclusion
Class I flush terminal plane with large overjetClass I flush terminal plane with large overjet
Shield the lower lip away- used for interception of lipShield the lower lip away- used for interception of lip
sucking habitsucking habit
To augment anchorageTo augment anchorage
Distallisation of first molarsDistallisation of first molars
As space regainers- early loss of deciduous molarsAs space regainers- early loss of deciduous molars
143.
144.
145. Denholtz ApplianceDenholtz Appliance
Lip bumper for the maxillary archLip bumper for the maxillary arch
Design similar to madibular lip bumperDesign similar to madibular lip bumper
146. Crozat Appliance Treatment of BuccalCrozat Appliance Treatment of Buccal
CrossbiteCrossbite JCO 2003,JCO 2003,
JuneJune
Frank MarasaFrank Marasa
147.
148. ACCOACCO
• Acrylic Cervico Occipital anchorageAcrylic Cervico Occipital anchorage
• Margolis 1976 & Spengeman 1967Margolis 1976 & Spengeman 1967
• Acrylic on labial bowAcrylic on labial bow
• Auxiliaries- springs for posterior rotationAuxiliaries- springs for posterior rotation
- minimal anterior crowding- minimal anterior crowding
- minimal distalization- minimal distalization
Jacobson splint- Used phase therapy or prefixedJacobson splint- Used phase therapy or prefixed
appliance guidance.appliance guidance.
Verdon combination appliance-WhenVerdon combination appliance-When
mandibular protraction desiredmandibular protraction desired
149. Fixed Removable approach to presurgicalFixed Removable approach to presurgical
Orthodontic TreatmentOrthodontic Treatment
H.S.Orton, P.M.NobleH.S.Orton, P.M.Noble
Lower full edgewise appliance JCO May 1990Lower full edgewise appliance JCO May 1990
Upper labial sectional edgewise applianceUpper labial sectional edgewise appliance
Expansion plate with dams clasp for fixationExpansion plate with dams clasp for fixation
150. Design variation for class II div 2 casesDesign variation for class II div 2 cases
Clasps on I premolar and I molarClasps on I premolar and I molar
Palatal spring to intrude and procline upper incisorsPalatal spring to intrude and procline upper incisors
151. Bonding for Retention of Removable Appliances
Leonard Gorelick, Arnold Geiger
JCO 1986 JUNE
Anatomic factors prevent adequateAnatomic factors prevent adequate
retentionretention
•Bell shaped posterior teethBell shaped posterior teeth
•Teeth with abnormal axialTeeth with abnormal axial
inclinationinclination
•High palatal vault- poor tissueHigh palatal vault- poor tissue
adaptation of acrylicadaptation of acrylic
• Large tori that limit tissue supportLarge tori that limit tissue support
Bondable eyeletBondable eyelet
Composite bonding materialComposite bonding material
152. Bonded Composite Button for RemovableBonded Composite Button for Removable
AppliancesAppliances JCO 2003 JuneJCO 2003 June
Stephen Edward Grimm IIIStephen Edward Grimm III
• Composite button made on lingual surfaceComposite button made on lingual surface
• Undercut made on the gingival side of the buttonUndercut made on the gingival side of the button
• Prevents the spring from being displacedPrevents the spring from being displaced
• Allows full force to act on the toothAllows full force to act on the tooth
153.
154. Instructions to patient
• DiscomfortDiscomfort
• PhoneticsPhonetics
• Increased salivationIncreased salivation
• Cleaned after eatingCleaned after eating
• Initially full time wear except while eating for 6mtsInitially full time wear except while eating for 6mts
• Later night time wearLater night time wear
155. ConclusionConclusion
““All you can do is push, pull or turn a tooth. I have givenAll you can do is push, pull or turn a tooth. I have given
you an appliance and now for God’s sake use it”you an appliance and now for God’s sake use it”
Edward.H.AngleEdward.H.Angle
156. ReferencesReferences
Orthodontic treatment with removable appliances- W.Orthodontic treatment with removable appliances- W.
W.J.B. Houston, K.G. IssacsonW.J.B. Houston, K.G. Issacson
The Design, construction and use or RemovableThe Design, construction and use or Removable
Orthodontic Appliances – C. Philip AdamsOrthodontic Appliances – C. Philip Adams
Removable Orthodontic Appliances- T.M. Graber,Removable Orthodontic Appliances- T.M. Graber,
Bedrich NeumannBedrich Neumann
Orthodontics Principles and Practice- T.M. GraberOrthodontics Principles and Practice- T.M. Graber
Contemporary Orthodontics- ProffitContemporary Orthodontics- Proffit
157. ReferencesReferences
Orthodontics. Post graduate dental hand book- Spiro.Orthodontics. Post graduate dental hand book- Spiro.
J. ChakonasJ. Chakonas
An Introduction to Orthodontics- Laura MitchellAn Introduction to Orthodontics- Laura Mitchell
Removable Partial Prosthodontics - McCracken’sRemovable Partial Prosthodontics - McCracken’s
Dentofacial Orthopedics with Functional Appliances,Dentofacial Orthopedics with Functional Appliances,
Thomas. M. Graber, Thomas Rakosi, Alexandre G.Thomas. M. Graber, Thomas Rakosi, Alexandre G.
PetrovicPetrovic
Removable Orthodontic Appliances. M.S.RaniRemovable Orthodontic Appliances. M.S.Rani
158. ReferencesReferences
High Labial Retainer Harvey.L.LevittHigh Labial Retainer Harvey.L.Levitt
JCO Jan1972JCO Jan1972
A Removable cuspid-to-cuspid RetainerA Removable cuspid-to-cuspid Retainer
Doglus J. Shilliday JCO 1973Doglus J. Shilliday JCO 1973
Crozat Princilples and Technique. Wendell H. Taylr. JCOCrozat Princilples and Technique. Wendell H. Taylr. JCO
June 1985June 1985
Crozat Appliance Treatment of Buccal Crossbite FrankCrozat Appliance Treatment of Buccal Crossbite Frank
Marasa. JCO June 2003Marasa. JCO June 2003
Essix Retainers- Fabrication and supervision for permanentEssix Retainers- Fabrication and supervision for permanent
retention John. J. Sheridan, Willaim Ledoux, Robert Mcmin.retention John. J. Sheridan, Willaim Ledoux, Robert Mcmin.
JCO Jan 1993JCO Jan 1993
Van der Linden RetainerVan der Linden Retainer JCO May2003JCO May2003
159. ReferencesReferences
Molar intrusion with removable a applianceMolar intrusion with removable a appliance
Giuilio Alessandri Bonatti, Daniela GiuntaGiuilio Alessandri Bonatti, Daniela Giunta
JCO Aug 1996JCO Aug 1996
Wraparound cantilever retainerWraparound cantilever retainer
Timonthy J. TremontTimonthy J. Tremont,, JJCO Feb- 2003CO Feb- 2003
Notes & Compilation of Articles.Notes & Compilation of Articles.
Dr.Arundhati P. TandurDr.Arundhati P. Tandur
Space maintainers in Pedodontics, Dr.N. Shivakumar,Space maintainers in Pedodontics, Dr.N. Shivakumar,
Library thesis, Department of Pedodontics, ManipalLibrary thesis, Department of Pedodontics, Manipal